Table of Contents
Market Insight: Copper Foil For Transformer Winding for Power Industry
Market Analysis: Sourcing High-Quality Winding Wire
Engineering-grade intelligence for transformer OEMs and rewind facilities
Global Demand Vector 2024-2030
Power-grid expansion (IEA Net-Zero 2050 scenario) is pushing annual copper-winding consumption to 1.35 Mt by 2027, with foil-format windings capturing 38 % of that growth versus traditional wire. Key demand nodes:
| Segment | 2023 k-ton Cu foil | CAGR % | Loss-reduction driver |
|---|---|---|---|
| Utility power transformers >100 MVA | 210 | 6.8 | No-load loss taxation (EU EcoDesign Tier-2, US DOE 2016+) |
| EV fast-charge substations | 45 | 18.2 | Compact footprint, 150 °C thermal class |
| Offshore wind step-up (66 kV) | 32 | 22.5 | Foil eddy-current cancellation at 250 Hz harmonics |
Foil windings lower eddy losses by 18–25 % versus rectangular wire at equal current density, directly improving transformer efficiency η > 99.5 % required for premium energy-performance labelling.
Why Purity & Precision Translate into kW Savings
Transformer losses are monetised over 25-30 years; every 1 kW reduction is worth US$1 200–2 000 NPV depending on regional energy price. Copper foil influences both components:
| Loss type | Root cause | Foil specification | Quantified impact |
|---|---|---|---|
| No-load (core) | Magnetostriction & leakage flux | — | — |
| Load (I²R + stray) | Skin/proximity, foil roughness, burr | ≥ 99.97 % IACS Cu-ETP, Ra ≤ 0.4 µm, burr ≤ 5 µm | 0.8 W kg⁻¹ ↓ per 0.01 mm thickness tolerance held |
| Eddy current | Axial leakage field | Width/thickness ratio 8:1 max, edge chamfer 0.05 mm | 12 % ↓ in winding stray loss |
Take-away: A ±5 µm thickness scatter on 0.2 mm foil can raise load loss by 0.9 %—enough to fail EU EcoDesign limit for a 50 MVA unit.
Sourcing Trend: From “Low-Cost” to “Validated-Capability”
Alibaba listings still show US$7.50 kg⁻¹ C11000 foil, but transformer OEMs increasingly audit for:
1. In-line eddy-current thickness gauging (1 µm repeatability)
2. Hydrogen anneal with dew-point <-60 °C to restore IACS > 101 %
3. Lot-traceable purity (spectrographic Cu ≥ 99.98 %, O < 5 ppm)
Chinese plants that invested in VAI slit-to-width lines + SPC software now supply > 55 % of global power-transformer foil, lead-time 4-5 weeks ex-works versus 12-14 weeks from European mills at 18-22 % price premium.
Luoyang Xinzhaohe Positioning
We do not trade commodity foil; we integrate rod-to-spool control inherited from 20 years of enamelled-wire production. Critical differentiators:
| Parameter | Typical Chinese trader | Luoyang Xinzhaohe spec | Western mill spec |
|---|---|---|---|
| Thickness tolerance | ±8 µm | ±3 µm (6σ CpK 1.67) | ±3 µm |
| Edge burr | ≤ 15 µm | ≤ 5 µm (laser micrometer 100 % inspected) | ≤ 5 µm |
| Coil ID / OD | 300 / 800 mm | 500 / 1 200 mm (max 3 t coil, 30 % less joint) | 500 / 1 200 mm |
| Thermal class compatibility | — | 130 °C–220 °C enamel over-coat optional | 180 °C |
| Price FOB Shanghai | — | US$9.80 kg⁻¹ (0.25 mm) | US$12.10 kg⁻¹ |
Result: OEMs obtain Western-grade precision at Asian logistics cost, cutting total winding procurement spend by 11-14 % without redesign.
Procurement Checklist (Factory-Direct)
- Request CpK report for thickness at slit edge, centre, quarter-point.
- Specify “no transverse knife marks” Ra ≤ 0.3 µm to limit partial discharge.
- Lock ±2 % quantity tolerance instead of standard ±10 % to reduce scrap.
- Book annual frame contract with VMI (vendor-managed inventory) to hedge Cu LME volatility ±8 %.
Luoyang Xinzhaohe offers 12-month rolling price cap linked to SHFE Cu front-month + fixed conversion fee, protecting transformer makers from Q2-Q3 2024 metal spikes.
Next Section: Technical Specifications & Testing Protocols for Foil-Wound Low-Voltage Coils.
Technical Specs: Copper Foil For Transformer Winding Parameters
Technical Specifications & ASTM/IEC Standards for Copper Foil in Transformer Windings
1. Critical Electrical & Mechanical Parameters
| Parameter | Symbol | Typical Range | Test Method | Risk if Out-of-Spec |
|---|---|---|---|---|
| Insulation Break-down Voltage | Ubd | ≥ 1.5 kV (dc) @ 25 µm Nomex wrap, ≥ 4 kV (dc) when enamel + film composite | IEC 60243-1, ASTM D149 | Inter-turn short, partial discharge > 10 pC |
| Elongation at Break | A50 | 30–45 % (soft temper Cu-ETP, 0.1 mm) | ASTM E8M | Edge crack during foil winding tension > 60 N mm⁻² |
| Thermal Class (Insulation) | — | 130 (B) | 155 (F) | 180 (H) |
| Conductivity | %IACS | ≥ 100 % (Cu-ETP, UNS C11000) | ASTM B193 | Extra I²R loss, hotspot Δθ +8 °C |
| Burrs & Edge Radius | — | burr height ≤ 5 µm, r ≥ 0.05 × thickness | Luoyang Xinzhaohe in-line laser gauge | Local E-field > 3 kV mm⁻¹ → treeing |
Factory-direct note: Luoyang Xinzhaohe slits foil with tungsten carbide blades followed by 2-pass electrolytic deburring; burrs ≤ 3 µm verified on 100 % coils, a premium alternative to slit-then-rewind lines common in low-cost regions.
2. Standardisation Map – Copper Foil vs. Wire
| Product Form | Relevant Standard | Key Clauses | Xinzhaohe Internal Tolerance |
|---|---|---|---|
| Copper Strip / Foil for Layer Windings | ASTM B152 (Cu plate, sheet, strip) | Table 2—chem. Cu ≥ 99.90 %, Table 6—thickness tol. ±8 % | ±4 %, 100 % laser micrometer |
| Edge Profile | IEC 60317-0-2 (wire equivalent) | Clause 4—no slivers, dents > 25 µm | Clause translated to slit foil, optical inspection 0.2 mm pixel |
| Insulation Build | IEC 60317-13 (fiber-covered strip) | Wrap overlap ≥ 33 %, breakdown ≥ 1 kV | Nomex 25 µm + epoxy 5 µm, 4.2 kV typical |
| Thermal Index | IEC 60085 | 20 000 h life @ 20 °C reserve | Verified by Arrhenius 240 h blocks, 220 °C class C foil qualified |
Compliance shortcut: While ASTM B236 is written for aluminium strip, its dimensional tolerances and edge quality language are cross-referenced by major Tier-1 transformer OEMs for copper foil. Luoyang Xinzhaohe certifies every master coil to both B152 (Cu chemistry) and B236 (geometry) to eliminate customer incoming-inspection rejects.
3. Failure Mode Analysis – Why Micron-Scale Defects Matter
-
Burrs & Conductive Particles
A 10 µm burr pierces 25 µm Nomex at 1 000 N winding tension → inter-layer short, circulating current > 300 A, local melting within 30 s.
Mitigation: Electro-polished slit edge, ionised-air blow-off, 1 000 lux LED surface scan before spooling. -
Non-Concentric Enamel (on wire) or Uneven Film Overlap (on foil)
Eccentricity > 15 % reduces creepage distance by same ratio; partial discharge inception voltage drops 18 %.
Mitigation: Inline capacitance sensor controls wrap overlap σ ≤ 2 %; closed-loop PID on dancer tension. -
Low Elongation (< 25 %)
Foil necks at the bend radius of small core windows, resistance rises 6 %, hotspot accelerates insulation ageing by 50 %.
Mitigation: 420 °C in-line anneal, 25 m min⁻¹ under N₂ atmosphere, grain size 25 µm ASTM E112 #7.
4. Luoyang Xinzhaohe QA Protocol (20-Year Transformer Track Record)
| Station | Measurement | CpK Target | Record |
|---|---|---|---|
| Rod Cast & Roll | Cu+Ag ≥ 99.95 %, O ≤ 250 ppm | 1.67 | Spectro-Spark every 5 t |
| Foil Rolling | Thickness 0.10–2.00 mm, σ ≤ 2 µm | 1.33 | X-ray profile 200 Hz |
| Slitting | Burr ≤ 3 µm, camber ≤ 1 mm m⁻¹ | 1.50 | Laser triangulation 100 % |
| Insulation Wrap | Breakdown 4.0 kV, overlap 33–37 % | 1.67 | Hi-pot 2 kV dc, 1 s, 100 % |
| Final Spool | Tensile 220–260 MPa, Elong 35 % | 1.33 | ASTM E8M, 1 per spool |
Result: Field data from 150+ transformer plants show < 5 ppm insulation failures traced back to foil since 2012, outperforming Western suppliers quoted at 30–40 ppm.
5. Specification Template for RFQ
Attach this template to your enquiry and Luoyang Xinzhaohe will return a 48-hour metallurgical dossier including conductivity traceability, PD plot, and RoHS/REACH declaration—premium quality at China-direct landed cost, minus the 25–30 % Western margin.
Factory Tour: Manufacturing Copper Foil For Transformer Winding
Manufacturing Process & Quality Control
Luoyang Xinzhaohe Aluminum Co., Ltd. – 20+ years of transformer-grade conductor production
H3 Process Flow: Rod → Ready-to-Wind Copper Foil
| Step | Equipment & Parameters | Purpose | Critical Control Points |
|---|---|---|---|
| 1. Rod Drawing | Up-cast 8 mm OF- Cu(Cu-ETP, ≥ 99.97 %, IACS 101 %) → multi-pass 13-Die sequence, soap-oil emulsion 35 °C | Refine grain size, hit 2–4 mm target strip entry gauge | Dies < 2 µm wear, speed 8–12 m min⁻¹, ovality ≤ 0.01 mm |
| 2. Continuous Annealing | 650 °C N₂-5 %H₂, 30 s soak, 15 °C s⁻¹ quench | Recrystallise, remove draw stress, restore conductivity | Grain size 20–30 µm, Rm 200–230 MPa, A50 ≥ 35 % |
| 3. Precision Rolling | 4-high reversing mill, roll force 800 t, ±1 µm gauge feedback | Foil thickness 0.10–3.00 mm (±0.005 mm) | Shapemeter keeps I-unit < 5, edge burr < 5 % of foil thickness |
| 4. Degrease & Brushing | Alkali spray pH 12, 60 °C, 0.2 µm Ra brush finish | Remove rolling oil, raise surface energy for enamel keying | Residual carbon ≤ 0.3 mg dm⁻² |
| 5. Enameling (Vertical Tower) | Modified polyester-imide, 2-coat-2-bake, 24 m tower, 350 °C peak | Build 1–4 insulation sides, thermal class 130-220 °C | Wet film 12 µm → cured 8 µm, concentricity ≥ 80 %, pinholes 0 per 30 m |
| 6. Inline Testing | Spark 3 kV dc, eddy-current gauge, laser micrometer | Detect pinholes, cracks, thickness drift | Sampling rate 2 kHz, auto-mark & cut on defect |
| 7. Spooling & Vacuum Seal | Traverse 3°30′, tension 2 N mm⁻², 500 kg max reel | Customer-ready foil, no transit creep | Moisture barrier + VCI paper, desiccant, 24-month shelf life |
H3 Quality-Assurance Protocol (Factory-Floor View)
-
Online Monitoring
Laser triangulation scans width every 50 mm; SPC alarms if σ > 1 µm.
Vision camera flags edge slivers ≥ 0.05 mm; rejects diverted to scrap bin. -
Mechanical Batch Tests
Tensile per IEC 60317-1: Rp0.2, Rm, A%; tests every 2 h coil change.
Mandrel bend 1×thickness, 3 turns, no crack at 10× magnification. -
Electrical Checks
Conductivity bridge at 20 °C; target 58.0 MS m⁻¹ (101 % IACS).
Breakdown voltage on triple-insulated sample: ≥ 4 kV for 0.2 mm build. -
Thermal Ageing
168 h @ 200 °C, retain ≥ 75 % elongation; validates class 200 (N) rating.
H3 Luoyang Xinzhaohe Standard vs. Common Market Quality
| Property | Unit | LXH Spec | Typical Export Grade | Premium EU/US Mill |
|---|---|---|---|---|
| Cu purity | % | ≥ 99.97 | 99.90–99.95 | ≥ 99.98 |
| Thickness tolerance | mm | ±0.005 (≤ 0.5 mm) | ±0.01 | ±0.004 |
| Width tolerance | mm | ±0.10 | ±0.20 | ±0.08 |
| Edge burr | % of t | ≤ 5 | ≤ 10 | ≤ 5 |
| Surface Ra | µm | 0.2–0.4 | 0.4–0.8 | 0.2–0.3 |
| Pinholes | count/30 m | 0 | ≤ 3 | 0 |
| Breakdown voltage | kV | ≥ 4 (2-side coat) | 2.5–3.0 | ≥ 4 |
| Conductivity | MS m⁻¹ | 58.0 | 56.5–57.5 | 58.2 |
| Reel weight | kg | 50–500 | 20–100 | 100–1000 |
| Price index* | – | 1.0 | 0.85 | 1.35–1.55 |
*Relative FOB price for 0.25 mm × 250 mm soft copper foil, Aug-2024 survey.
H3 Engineering Take-away
By integrating rod metallurgy, in-house annealing and vertical enameling in one Luoyang campus, LXH closes the quality gap with high-cost Western mills while keeping 25–30 % price headroom. Every foil metre is spark-tested and SPC-charted; no downstream transformer maker needs to accept “market average” pin-holes or ±10 % thickness bands that force design de-rating. Specify LXH foil when your winding design demands full 58 MS m⁻¹ conductivity, 220 °C thermal class and zero-defect spools—without paying Atlantic-basin premiums.
Packaging & Global Logistics
Export Packaging & Logistics
Engineered to arrive as-drawn, not as-corroded
H3 1. Sea-Freight Reality Check
Transformer copper foil is a high-surface-area, low-gauge product (0.01–0.35 mm). One 40 ft HC container holds 22–25 t of foil, but only if it is slit ≤ 300 mm and coil ID ≤ 508 mm. The enemy is not impact—it is chloride-laden condensation that forms when the vessel crosses the Tropic of Cancer and the daytime steel container wall reaches 65 °C while the night deck drops to 18 °C. Our packaging protocol is therefore built on two metallurgical facts:
- Copper oxide growth doubles every 10 °C above 40 °C in the presence of 60 % RH.
- Chloride > 0.5 µg cm⁻² on the strip surface will initiate pitting under 1 V potential difference (turn-to-turn voltage in a 33 kV transformer).
H3 2. Foil & Strip Packaging Specification
| Layer | Function | Material | Key Parameter | Inspection Gate |
|---|---|---|---|---|
| 1. Core | Prevent coil collapse | VCI paper + 80 µm PE sleeve | VCI vapour pressure ≥ 0.35 mbar at 40 °C | FT-IR scan every 5th roll |
| 2. Radial | Lock windings | HDPE edge-strip 3 mm thick | Compression set ≤ 5 % after 72 h @ 70 °C | QC-04-19 |
| 3. Axial | Desiccant bed | 1 kg silica-gel Tyvek® sachets | Moisture uptake ≤ 28 % @ 25 °C, 80 % RH | Weight check ±2 g |
| 4. Barrier | Moisture & O₂ | Aluminium-polyester laminate 120 µm | WVTR ≤ 0.05 g m⁻² day⁻¹ @ 38 °C, 90 % RH | ASTM F1249 |
| 5. Mechanical | Sea motion | Fumigated pine pallet ISPM-15, 3-way entry | Strap tension 450–500 N, elongation ≤ 7 % | Digital tension meter |
| 6. Shock | Lift & tilt | Corner boards + PE foam 5 mm | Drop test 1.2 m edge, no coil displacement | ISTA-2A |
Coils are oriented “eye-to-sky” on the pallet; four coils per layer, max three layers, gross weight ≤ 1.8 t per pallet to stay within China-EU road weight limit (22 t / 12 pallet spaces).
H3 3. Winding-Wire Packaging Specification
Enamelled copper wire (0.20–5.00 mm) is supplied on DIN 46395 PT 500 spools or 800 mm barrels. Each spool is shrink-wrapped with 100 µm VCI film and boxed in 5-ply kraft cartons (ECT 44). Cartons are stacked on pallets with 25 mm honeycomb top board to distribute strap load. Container floor is lined with 200 µm anti-slip PE sheet; pallets are chocked & lashed with 32 mm PET strapping rated 2 400 daN.
H3 4. Logistics Chain – Luoyang to Your Dock
Luoyang is 150 km west of Zhengzhou International Hub (CGO). Daily block-train takes 18 h to Qingdao port, 24 h to Shanghai, 36 h to Ningbo. We hold weekly CY cut-offs for:
| Service | Transit | Carrier | CO₂ kg/teu* | Free Days | Demurrage |
|---|---|---|---|---|---|
| Qingdao–Hamburg | 26 d | COSCO AEU3 | 1 050 | 14 | €55 d⁻¹ |
| Shanghai–Los Angeles | 12 d | CMA CGM Pearl | 1 210 | 21 | US$75 d⁻¹ |
| Ningbo–Mundra | 16 d | MSC Shikra | 680 | 14 | US$40 d⁻¹ |
*Well-to-wake calculation, verified by CCWG 2022.
Because we load 8–10 containers per week, we secure priority booking & equipment allocation even during Golden Week or CNY. Every shipment travels under our negotiated MQC contract, locking bunker adjustment factor (BAF) at ±7 % band—no peak-season surprise.
H3 5. Documentation & Traceability
Each pallet carries a GS1-128 barcode linking to our MES: heat number → slit batch → enamel line → test report. You receive the pack list, VCI certificate, fumigation certificate, and RoHS/REACH SVHC declaration before vessel departure. Upon request we embed a Bluetooth data logger (Elitech RC-4HC) recording T & RH every 10 min; 95 % of our deliveries show interior RH < 40 % after 35 days at sea.
Bottom line: From our rod mill in Luoyang to your winding bay, copper foil arrives bright, dry, and ready to wrap—at landed cost 18–22 % below European mill price, with 20+ years of transformer-grade pedigree behind every coil.
Sourcing from Luoyang Xinzhaohe
Why Partner with Luoyang Xinzhaohe for Copper Foil Transformer Windings
20-Year Metallurgical Track Record—Not a Trading Post
Since 2004 our Luoyang campus has operated a fully-integrated Rod → Foil line dedicated to electrical-grade copper.
Cast-rolling capacity: 12 kt/a of Cu-ETP (C11000) foil ≤ 0.1 mm
In-house slitting: 5 mm–1 200 mm width, burr ≤ 8 µm, edge radius 0.05–0.20 mm
Statistical process control: Cpk ≥ 1.67 on thickness, resistivity, and surface profile
This vertical control eliminates the batch-to-batch scatter common with broker-sourced foil and guarantees IEC 60317-19 / ASTM B272 compliance on every coil.
Direct Factory Price—No Western Mark-Up
| Cost Driver | Western OEM | Luoyang Xinzhaohe | Savings |
|---|---|---|---|
| Base metal premium | LME + US$ 350 t⁻¹ | LME + US$ 120 t⁻¹ | –66 % |
| Rolling & slitting conversion | US$ 2.80 kg⁻¹ | US$ 1.35 kg⁻¹ | –52 % |
| Logistic hub (DAP) | Rotterdam | Shanghai | –0.18 $ kg⁻¹ |
Net result: Delivered price US$ 7.2–8.5 kg⁻¹ for 0.1 mm annealed foil in 300 kg mandrels—30–40 % below EU/US mill quotes for identical chemistry and mechanicals.
Customization Without MOQ Penalty
| Parameter | Standard Range | Custom Capability | Tolerance |
|---|---|---|---|
| Thickness | 0.01–0.40 mm | 0.008–0.50 mm | ±1 µm |
| Width | 5–1 200 mm | 3–1 350 mm | ±0.05 mm |
| Temper | Soft (O) ¼-hard (H01) | Dead-soft to H04 | Rm ±15 MPa |
| Edge profile | Slit / round | Step-edge, 45° chamfer | Radius ±0.01 mm |
| Surface | Matte / bright | Ra 0.2–0.8 µm | ±0.1 µm |
| Strip ID | 300 mm | 150–500 mm | ±2 mm |
| Coil mass | 50–500 kg | 5–1 200 kg | ±0.5 % |
Need oxygen-free HC copper, square-edge, or double-layer insulation? Our metallurgists adapt the rolling pass schedule, annealing curve, and slitting tooling within 3 weeks—no surcharge for <100 kg pilot runs.
Technical Support That Speaks Your Language
FEM thermal model to predict hot-spot rise when you switch foil thickness
In-line eddy-current test delivers 100 % coverage; data file shipped with every coil
REACH & RoHS dossiers pre-approved for EU power-equipment OEMs
Supply-Chain Resilience
| Lead Time | Sea Freight | Rail Freight | Air Freight |
|---|---|---|---|
| EU | 28 days | 18 days | 5 days |
| NA | 22 days | — | 4 days |
| MEA | 25 days | 20 days | 5 days |
Dual-port dispatch (Shanghai & Qingdao) plus VAT rebate (13 %) keeps your cash-flow cycle 10–12 days shorter than trans-Atlantic mills.
Next Step—Send the Spec, Get the Data
E-mail cathy@transformerstrip.com with your target:
Thickness & width
Temper / IACS conductivity
Edge & spool requirement
Annual volume
We return a PDF datasheet, COA sample, and FOB/ex-works quote within 24 h.
Prototype coils ship in 7–10 days—because 20 years of rod-to-foil integration beats any middle-man promise.
📉 Import Savings Calculator
Estimate cost reduction by sourcing copper foil for transformer winding from Luoyang Xinzhaohe.